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Implications from Geometric Phase for Circulating Far Away Conical Intersection(s).

Marcel Nooijen1, Tao Zeng2

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Summary
This summary is machine-generated.

Geometric phase can arise far from conical intersections when nuclear configurations follow closed loops. Restricted Hartree-Fock calculations reveal degeneracy points, causing wave function changes even with large energy gaps.

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Area of Science:

  • Quantum Chemistry
  • Computational Chemistry

Background:

  • Geometric phase phenomena are typically linked to conical intersections in molecular systems.
  • The emergence of geometric phase far from conical intersections, especially for closed-shell configurations, remains an open question.

Purpose of the Study:

  • To investigate the occurrence of geometric phase in nuclear configurations distant from conical intersections.
  • To explore how closed-shell electronic configurations acquire a sign change upon completing a trajectory enclosing a conical intersection.

Main Methods:

  • Full configuration interaction (FCI) calculations.
  • Closed-shell single-reference calculations.
  • Utilized toy models: H4 and LiH3.

Main Results:

  • Conjectured that restricted Hartree-Fock (RHF) solutions encounter degeneracy points on closed loops encircling conical intersections.
  • Observed that single-reference wave functions necessitate character changes near these degeneracy points.
  • Indicated that multireference character is likely, even with substantial energy gaps between electronic states.

Conclusions:

  • Geometric phase can manifest even when nuclear configurations are far from conical intersections.
  • Degeneracy points encountered by RHF solutions are critical for understanding wave function behavior in such scenarios.
  • The study highlights the importance of considering multireference character in electronic structure calculations under specific nuclear trajectories.